Results 171 to 180 of about 914 (194)
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Design of a Wideband Artificial Magnetic Conductor (AMC) Ground Plane for Low-Profile Antennas
Journal of Electromagnetic Waves and Applications, 2008A novel low-profile wideband dipole antenna on a tapered artificial magnetic conductor (AMC) ground plane is proposed. A tapered AMC ground plane consisting of strip dipoles with different lengths is designed to increase the bandwidth of a dipole antenna placed right above it.
J. Yeo, D. Kim
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Inkjet-Printed Artificial Magnetic Conductors (AMC) for Wearable Antenna Applications
2014Design challenges and basic concept for wearable antenna on artificial magnetic conductors (AMC) are discussed. The antennas, such as monopole and RFID tag, are mounted on AMC to mitigate the human body effect, and the inkjet printing technology on flexible organic paper is chosen as a fabrication method to implement low-cost flexible wearable antennas.
S. Kim +3 more
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Applied Mechanics and Materials, 2015
A Coplanar Waveguide (CPW) wideband antenna operates from 2.69 GH to 6.27 GHz which act as reference antenna (RA) has been designed. A Dual Band AMC (DBAMC) unit cells have been proposed to operate at 2.45 GHz and 5.8 GHz. AMC is a metamaterial which mimics the behavior of zero reflection phase of Perfect Magnetic Conductor (PMC) at resonance frequency
Raimi Dewan +3 more
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A Coplanar Waveguide (CPW) wideband antenna operates from 2.69 GH to 6.27 GHz which act as reference antenna (RA) has been designed. A Dual Band AMC (DBAMC) unit cells have been proposed to operate at 2.45 GHz and 5.8 GHz. AMC is a metamaterial which mimics the behavior of zero reflection phase of Perfect Magnetic Conductor (PMC) at resonance frequency
Raimi Dewan +3 more
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2005 IEEE Antennas and Propagation Society International Symposium, 2005
The paper presents a novel approach in designing high impedance surfaces. The unit cell geometry for the desired artificial magnetic conductor is similar to a 4 port band pass filter. Various unit cells are proposed based on this approach. Using this approach, a 2D planar AMC with cell size of about 0.06 of the free space wavelength at the cut off ...
G.S.A. Shaker, S. Safavi-Naeini
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The paper presents a novel approach in designing high impedance surfaces. The unit cell geometry for the desired artificial magnetic conductor is similar to a 4 port band pass filter. Various unit cells are proposed based on this approach. Using this approach, a 2D planar AMC with cell size of about 0.06 of the free space wavelength at the cut off ...
G.S.A. Shaker, S. Safavi-Naeini
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2017 IEEE 17th International Conference on Nanotechnology (IEEE-NANO), 2017
The emergence of fan-out packaging for 5G and IoT applications has brought escalating performance concerns that arise from the proximity of radiating components such as antennas to lossy materials such as metals and silicon. These concerns also arise in wearable (“smart skin”) electronics where the human tissues act as the lossy substrate.
Tong-Hong Lin +5 more
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The emergence of fan-out packaging for 5G and IoT applications has brought escalating performance concerns that arise from the proximity of radiating components such as antennas to lossy materials such as metals and silicon. These concerns also arise in wearable (“smart skin”) electronics where the human tissues act as the lossy substrate.
Tong-Hong Lin +5 more
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Proceedings of the 2003 SBMO/IEEE MTT-S International Microwave and Optoelectronics Conference - IMOC 2003. (Cat. No.03TH8678), 2004
This work presents the effect of the height variation of an AMC, artificial magnetic conductor. The AMC is a metal-dielectric structure which has a high surface impedance inside a forbidden frequency band. The prototype for this work is first designed to have a bandgap around 1.9 GHz.
L.C. Kretly, A.M.P.A. Silva
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This work presents the effect of the height variation of an AMC, artificial magnetic conductor. The AMC is a metal-dielectric structure which has a high surface impedance inside a forbidden frequency band. The prototype for this work is first designed to have a bandgap around 1.9 GHz.
L.C. Kretly, A.M.P.A. Silva
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2005 IEEE Antennas and Propagation Society International Symposium, 2005
The EMM of an AMC, reported in (S. A. Clavijo et al, IEEE Trans. Ant. Prop., vol.51, p.2678-2690, 2003), is implemented in FDTD, which allows us to demonstrate the validity of the model. This is done by verifying its surface wave bandwidth. With this model implemented in FDTD then the AMC can easily be treated as a material and its interactions with ...
S.A. Clavijo, R.E. Diaz
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The EMM of an AMC, reported in (S. A. Clavijo et al, IEEE Trans. Ant. Prop., vol.51, p.2678-2690, 2003), is implemented in FDTD, which allows us to demonstrate the validity of the model. This is done by verifying its surface wave bandwidth. With this model implemented in FDTD then the AMC can easily be treated as a material and its interactions with ...
S.A. Clavijo, R.E. Diaz
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2.4GHz High Efficient Rectenna using Artificial Magnetic Conductor (AMC)
IEICE Proceeding Series, 2011Younghwan, Kim, Sungjoon, Lim
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Design An Artificial Magnetic Conductor "AMC" Unit Cell Using Frequency Selective Surface (FSS)
مجلة الكلية الإسلامية الجامعة, 2016Hussein Q. Al-Fayyadh +2 more
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Studies of Various Artificial Magnetic Conductor for 5G Applications
Lecture Notes in Electrical Engineering, 2020Arjun Kumar, Kumar Arjun
exaly